Practical Post-Quantum Signatures: Falcon and Solmae with Python
暫譯: 實用後量子簽名:使用 Python 的 Falcon 與 Solmae
Kim, Kwangjo
- 出版商: Springer
- 出版日期: 2025-02-16
- 售價: $2,410
- 貴賓價: 9.5 折 $2,290
- 語言: 英文
- 頁數: 86
- 裝訂: Quality Paper - also called trade paper
- ISBN: 3031812492
- ISBN-13: 9783031812491
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相關分類:
Python、程式語言、量子 Quantum
海外代購書籍(需單獨結帳)
商品描述
The current digital signature methods like RSA, DSA, and ECDSA are relatively simple to understand, and their signing and verification processes operate in comparable time frames. However, in the quantum computing era, cryptographic methods must be designed to withstand both classical and quantum attacks. This requires an in-depth understanding of advanced mathematical concepts like algebraic geometry, lattice theory, Gaussian sampling, and efficient polynomial computation techniques such as FFT and NTT, which are essential for lattice-based cryptosystems.
The FALCON algorithm, chosen as a finalist in the NIST Post-Quantum Cryptography (PQC) standardization project, is a lattice-based, hash-and-sign digital signature scheme known for its efficiency and compactness compared to other quantum-resistant signatures like Dilithium and SPHINCS+. Following FALCON's development, the SOLMAE algorithm was introduced in 2021, offering a simplified signing process within the same GPV framework and also implemented in Python for easier accessibility.
This monograph provides a practical and educational introduction to post-quantum digital signatures, focusing on the FALCON and SOLMAE algorithms. The material aims to bridge the gap between theory and practice, offering hands-on knowledge of post-quantum cryptographic techniques. With a focus on clear, practical examples using Python, this book is a valuable resource for anyone looking to understand or implement quantum-secure digital signatures.
商品描述(中文翻譯)
目前的數位簽章方法如 RSA、DSA 和 ECDSA 相對容易理解,其簽署和驗證過程的運行時間相當。然而,在量子計算時代,密碼學方法必須設計成能抵抗經典和量子攻擊。這需要對高級數學概念有深入的理解,例如代數幾何、格理論、高斯取樣,以及高效的多項式計算技術,如 FFT 和 NTT,這些對於基於格的密碼系統至關重要。
FALCON 演算法被選為 NIST 後量子密碼學 (PQC) 標準化項目的決賽入圍者,是一種基於格的哈希簽名數位簽章方案,以其效率和緊湊性而聞名,相較於其他抗量子攻擊的簽章如 Dilithium 和 SPHINCS+。在 FALCON 開發之後,SOLMAE 演算法於 2021 年推出,提供了在相同 GPV 框架內簡化的簽署過程,並且也以 Python 實現,以便於使用。
本專著提供了對後量子數位簽章的實用和教育性介紹,重點關注 FALCON 和 SOLMAE 演算法。該材料旨在彌合理論與實踐之間的鴻溝,提供後量子密碼技術的實踐知識。這本書專注於使用 Python 的清晰實用範例,是任何希望理解或實現量子安全數位簽章的人的寶貴資源。
作者簡介
Professor Kwangjo Kim, an influential figure in cryptography, earned his B.Sc. and M.Sc. from Yonsei University and a Ph.D. from Yokohama National University. He worked at ETRI from 1979 to 1997 and held visiting professorships at prestigious institutions like MIT and UCSD. After his retirement from KAIST in 2021, where he had served since 1998, he became President of the International Research Institute for Cyber Security (IRCS) and remains an Emeritus Professor at KAIST. Professor Kim has been a key contributor to the global cryptographic community, notably serving as a board member of the IACR, chairing the Asiacrypt Steering Committee, and organizing multiple high-profile conferences. Honored as the first Korean IACR Fellow, he co-authored key texts on deep learning and privacy-preserving technologies and was recognized among Stanford's Top 2% of Scientists in 2023. He has significantly advanced post-quantum cryptography with the development of the SOLMAE signature scheme and boasts an H-index of 48 with over 10,000 citations. His research spans cryptography, cybersecurity, and applications, with numerous patents to his name.Currently, appointment as, Adjunct Faculty at Cleveland State Univ, Ohio, USA from FY2025 to FY2028.
作者簡介(中文翻譯)
教授金光祖(Kwangjo Kim)是密碼學領域的重要人物,獲得了延世大學的學士和碩士學位,以及橫濱國立大學的博士學位。他於1979年至1997年在ETRI工作,並曾在麻省理工學院(MIT)和加州大學聖地牙哥分校(UCSD)等知名機構擔任訪問教授。自1998年以來,他在KAIST任教,並於2021年退休,隨後成為國際網路安全研究所(IRCS)的所長,並繼續擔任KAIST的名譽教授。金教授對全球密碼學社群做出了重要貢獻,曾擔任國際密碼學與密碼分析會議(IACR)的董事會成員,並擔任Asiacrypt指導委員會的主席,組織了多場高規格的會議。他被榮譽為首位韓國IACR Fellow,並共同撰寫了有關深度學習和隱私保護技術的關鍵著作,於2023年被認定為史丹佛大學前2%的科學家。他在後量子密碼學方面取得了顯著進展,開發了SOLMAE簽名方案,並擁有48的H指數和超過10,000次引用。他的研究涵蓋密碼學、網路安全及其應用,擁有多項專利。目前,他被任命為美國俄亥俄州克里夫蘭州立大學的兼任教員,任期為2025財年到2028財年。
